This document discusses advanced glycation end products (AGEs), which are compounds formed when sugars bind to proteins or lipids. AGEs accumulate in tissues over time and can promote oxidative stress and inflammation. The document notes that AGEs can enter the body through diet, as many cooking methods promote AGE formation, and through smoking. It explores the mechanisms by which AGEs may contribute to diseases like diabetes through depletion of antioxidant defenses. The document also discusses evidence that a low-AGE diet can help reduce circulating AGE levels and markers of oxidative stress and inflammation.
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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AGEs can be introduced into the circulation even in
the absence of diabetes, together with nutrients
processed by common methods such as dry heat or
during tobacco smoking .
Food processing - dry heat, ionization, or
irradiation accelerates the generation of new AGEs
whether done at industrial or commercial levels
Heat and dehydration are also common in home
cooking.
Though intended to improve safety, digestibility,
and transportability of foods - heat and
dehydration amplify the formation of AGEs.
For the food industry, AGEs in food are highly
desirable because of the profound effect of AGEs on
food flavor and, hence, on food consumption
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Human and animal studies
demonstrated that about 10 % of
AGEs contained in a meal can be
absorbed into the circulation, of
which two-thirds remain in the body
for 72 hours
they stay long enough to promote
OS, more AGEs, and potentially more
tissue injury.
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A high- or low-AGE diet is defined on
whether the estimated dietary AGE
intake is greater or lower than 15,000
AGE kU/day
This happens to be the median
dietary AGE intake in our cohort of
healthy community dwellers .
This is largely attributed to the fact
that most favored methods of food
preparation promote AGE formation.
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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Steady-state AGE levels reflect
- glycemia and also
- balance of oral intake
- endogenous formation
- catabolism of AGEs
AGE catabolism is dependent on
- tissue anti-oxidant reserves
- macromolecular turnover
- receptor-mediated AGE degradation
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AGEs induce native AGER1.
Prolonged supply of external
AGEs depletes AGER1.
The ensuing surplus OS
promotes inflammation via RAGE
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Chronically elevated
AGEs,via high OS
cause SIRT1
depletion.
Decreased SIRT1
levels promote NF-κB
p65 hyper-acetylation
and enhanced
transcription of
inflammatory genes,
such as TNFα, which
contributes to insulin
resistance.
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AGER1and SIRT1 and other defense
mechanisms, is suppressed in chronic
diabetes.
both AGER1 and SIRT1 are restored after
lowering the external oxidant burden by
AGE restriction.
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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On a chronic basis,consumption of
high AGE foods can cause a strain
upon, and eventually a depletion of
native anti-oxidant defenses, setting
the stage for disease, ie, diabetes.
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primary adipocytes from trans-generational
mice exposed for life to specific AGEs were
compared to a low diet mouse
by the fifth generation MG-fed mice developed
insulin resistance as early as 16–18 months of
age instead of 24– 26 months of age seen in
the regular chow-fed controls.
The AGE-restricted cohort did not develop
these changes until beyond the age of 36
months or a time interval corresponding to
approximately 20 human years.
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These findings show that
prolonged exposure to an oxidant force
that normally does not exist in nature over the
span of several generations
can deplete innate immune defenses,
misfiring inflammatory responses or
fostering metabolic defects namely insulin
action
AGE-mediated β-cell toxicity is through the
inhibition of cytochrome-c oxidase and reduced
ATP production and impairing insulin secretion
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High AGE levels in T2D patients had been
attributed to endogenous sources, namely
hyperglycemia and OS
nondiabetic persons too could have “diabetic”
levels of serum AGEs and OS if they consumed
a diet with a high AGE content .
Serum AGEs correlated with dietary AGE
intake, as well as with established markers of
OS and inflammation, such as hsCRP and TNFα
independent of age or diabetes
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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Serum AGEs were shown to correlate with
fasting insulin, HOMA-IR and BMI and after a 4-
month treatment with an AGE-restricted diet, a
significant reduction in plasma insulin and
leptin were associated with a marked rise in
adiponectin consistent with improved insulin
sensitivity.
significant increase in AGER1 and SIRT1 levels
tied to reduced mononuclear cell NF-κB activity
and decreased TNFα levels - consistent with
suppressed inflammation
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These findings were independent of any
changes in standard medical therapy, they
support the postulate that the externally
derived proinflammatory AGEs are an
important culprit
these abnormalities can be effectively and
economically modulated by a modest decrease
(~50 %) of the amount of AGEs in the diet,
without changes in nutrient or calories.
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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Cigarette smoking
The processing or curing of tobacco involves
AGE formation since the plant leaves are heat-
dried in the presence of reducing sugars, added
for purposes such as taste and smell.
Subsequent combustion can lead to the
inhalation of AGE derivatives and transferred
into the circulation
chronic cigarette smokers compared with their
peers had higher
AGE levels in the arterial wall samples or
ocular lenses
Levels of serum AGEs
Serum LDL-apolipoprotein-B
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a low AGE intake can be easily achieved by using
lower heat,
higher humidity
instead of roasting, grilling or frying, use
stewing, poaching
avoiding highly processed pre-packaged and
fast foods
Patients with diabetes have found such a program
to be easily incorporated into their personal and
family life.
Various inhibitors of post-Amadori glycation
intermediates (glyoxal, methylglyoxal, 3-
deoxyglucosone) are described including
aminoguanidine , pyridoxamine, benfotiamine
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use of antioxidants as anti-AGE agents like
vitamin E
N-acetylcysteine
taurine
alpha lipoic acid
penicillamine
showed disappointing results
Bot all these previous trials did not consider the
large exogenous oxidant surplus entering the
gastrointestinal tract and likely neutralizing them,
their failure may not be surprising.
More studies with new agents and expanded range
of dosages will be needed to definitively establish
their effectiveness
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sevelamer carbonate, an oral nonabsorbable negatively
charged polymer, known clinically for its phosphate-
binding capacity can bind AGEs in a pH-dependent
manner and sequester AGEs in the gut.
After 2 months, sevelamer carbonate, but not CaCO3,
another phosphate-binder that does not bind AGEs,
effectively lowered circulating AGEs, as well as markers
of OS and inflammation in diabetic subjects with chronic
kidney disease
the agent restored AGER1 and SIRT-1 to normal levels
This strategy, confirming the importance of reducing
absorption of oral AGEs, provides critical support to
AGE-restriction and may offer an important adjunct
treatment strategy.
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What are AGE
AGE and diet
AGE mediated injury - mechanism
AGE are they diabetogenic?
AGE and diabetes
AGE- therapeutic implication
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Degradation products of AGE-proteins resulting
from the action of AGER1 and other receptor
give rise to AGE-peptides, which normally filter
across the glomerular membrane.
After filtration they undergo variable degrees of
tubular reabsorption or further catabolism by
the proximal tubule, and excretion in the urine.
an inverse correlation exist between serum
AGE levels and renal function estimated by
glomerular filtration rate
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The protective effects of AGER1 may
stem from its long extracellular tail
with high-affinity AGE-binding domain
These domains competitively interfere
with other AGE cell surface
interactions leading to ROS
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RAGE promote and perpetuate cell
activation and tissue injury via increased
OS .
The balance between these 2 receptors
may be critical in the maintenance of
oxidant homeostasis or progression to
diabetes
AGER1 disrupts RAGE signaling and
promotes the expression and
functions of SIRT1
SIRT1 is a regulator of inflammation
and the metabolic actions of insulin.
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In self-declared normal controls from our
population a significant association with HOMA,
an indicator of IR, was noted suggesting that
the standard western diet could serve as a
constant source of oxidants
Other studies reported lowered levels of serum
AGEs in diabetic patients after 2 months on a
low-AGE diet .
a low AGE diet program can be highly effective
in reducing chronic OS and inflammation so
the modern food environment can act as a
significant source of AGEs, which are capable of
altering native defenses and of disturbing
antioxidant balance in humans.